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Big Picture of Fuels, Downed Material, and Management
Challenges from Forest MortalityScott Stephens, ESPM Department, UC Berkeley
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Talk OutlineForest response to drought and bark beetles from
a relatively intact forest in a Mediterranean climate
– Sierra San Pedro Martir, Baja California
Drought and bark beetle mortality in the Sierra Nevada
– How does this effect potential fire behavior and effects and forest succession?• Analysis from 2015 Rough Fire
Management response to forest change
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Forests in the Sierra San Pedro Martir, Northern Baja, Mexico
Within the California floristic province– unique to Northern Baja California
Jeffrey pine-mixed conifer forests– Similar to forests in southern California, eastern Sierra
Nevada, drier parts of Sierra Nevada west-side
– Forested area approximately 70,000 ac
Elevation upper plateau 8500 feet– 3 large plateaus, Peninsular mountains
Fire suppression begins in 1970, little harvesting
Severe drought in SSPM and southern California forests from 1999-2002
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Surface Fuel Loads
Summary of a set of inventory plots on similar aspect, soils, forest type, after multi-year drought
Less than average fuel load of 6.6 tons/acre on 73% of plots
Greater than 8 tons/acre on 24% of plotsGreater than 16 tons/acre on 8% of plotsConclusion
– average fuel loads are rare (14% of plots)– high loads in small areas, low hazard but is already
changingStephens 2004, Dunbar-Irwin and Safford 2016
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Snag Densities in the SSPM
After severe 1999-2002 drought
0 snags on 26% of plots
Less than average density (2 snags/ac) on 65% of plots
Greater than 4 snags/ac in 14% of plots
Conclusion– Low forest mortality from beetles/drought
– Average snag densities are rare
– Occur in approximately 12% of plots• Stephens 2004, Stephens and Gill 2005
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SSPM Wildfire July 4, 2003
• Started in chaparral below forest– In SSPM lightning ignited fires suppressed by
suppression crews since 1970• Very low hazards, suppression efficient like it was in
the early 1900’s in the USA
• Fire burned approximately 600 acres of forests – More shrublands burned
• Largest fire in 20 years– Occurred at end of severe drought, 1999-2002
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2003 Wildfire in SSPM
after 4 Year Drought
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Wildfire Impacts• Approximately 20% of trees killed
– Jeffrey pine more dominate after fire, trees and seedlings (less white fir, incense-cedar)
• Fire was very patchy
– directly linked to heterogeneity of forest structure and fuels pre-fire
– Fire maintained or increased spatial heterogeneity in seedlings, trees
• produces fire with diverse effects
• continues high spatial heterogeneity
• Mortality very low even after 4 year drought, bark beetles, and wildfire (Stephens et al. 2008)
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SSPM Wildfire Severity• 17 fires burned forests in SSPM from 1984-2010
– Total area burned 66,000 ac
• 4980 ac burned in forests, mostly chaparral
– 7-15 lightning fires/year in SSPM forests, all suppressed today
• Fires that make it into forests mostly come from chaparral
• High severity fire characteristics– Average patch size 7.2 ac, median 1.6 ac, largest 27 ac
(high severity > 90% basal area mortality)
– Total proportion of Jeffrey pine or mixed conifer forests burned at high severity: 3%
• (Rivera-Huerta et al. 2016)
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Drought and Bark Beetle Impacts in USA
Almost all research on this topic done in Rocky Mountains or Pacific Northwest forests– High or mixed severity fire regimes
• Research has not found similar results• Some limited impacts of mortality on fire, others
demonstrate more effects
Frequent fire forests fundamentally different– Forests adapted to high severity fire have not
increased in density– Mixed severity fire regimes have experienced
increased tree densityMixed conifer, ponderosa and Jeffrey pine forests
have all experienced recent tree mortality in CA
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Western Pine Beetle Yosemite
Large Logs Falling, Heavy Dry Fuels
Eric Knapp
picture
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Theoretical depiction of
vegetation and fuel dynamics
following severe mortality
11-20 yr continued decreases
in canopy fuels and
considerable increases in
large surface fuel (top)
3-10 yr, loss of canopy fuels
as dead foliage and branches
fall, corresponding increase
in dead and live surface fuels
as tree seedlings and shrubs
grow (center)
Initially (1-2 yr) primary
change would be the reduced
moisture content of canopy
fuels – spotting (bottom)Stephens et al. (in review)
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Wildfire in Areas of High Tree Mortality
Collected forest structure, fire severity, and pre- and post-fire tree mortality on 50 mixed conifer plots in the 2015 Rough Fire in the southern Sierra
Used random forest to identify influential topographic, weather, vegetation, and pre-fire tree mortality variables on fire severity
Percentage of live tree basal area killed by fire was most associated with % basal area in the red phase pre-fire, followed by stand basal area, % of trees in red phase pre-fire, and pre-fire shrub cover
As snags fall, increase fuel loads dramaticallyStephens et al. (in review)
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Impacts of Severe MortalityInitially tree mortality increases fine dead fuels
– Can increase spotting potential and embers– CA. mortality not a ‘natural’ event, SSPM vs. California
Mass fires possible in 10-15 years as large dead wood falls– Cannot model these types of fires, very hazardous– Response: burn when needles fall, then again 10-15 years,
mechanical treatments too in roaded areas
Forest succession after large scale mortality– Loss of large, old trees critical– Homogeneous forest development, big problem
• Add treatments to increase heterogeneity
Forest mortality a symptom of unsustainable forests – Modify current frequent fire forests to reduce vulnerability– Emphasis on Green Forests vs always chasing the dead
• Have 1-3 decades to move on this: It is possible
Stephens et al. (in review)
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AcknowledgementsBrandon Collins, Malcolm North, Eric Knapp,
Mark Finney, Chris Fettig, Chad Hoffman, Hugh Safford, Rebecca Wayman
Funding from USFS, US Joint Fire Sciences Program, UC NRS
Papers available at:www.cnr.berkeley.edu/stephens-lab/
Email [email protected]